RU2116133C1 - Washing installation - Google Patents

Abstract

FIELD: mineral dressing. SUBSTANCE: invention relates to low-scale dressing installations serving to recover gold from gravel deposits. Installation comprises shaker mounted on frame and provided with gravel-disintegration device and gravel- concentration apparatus in the form of deep-filling strake and is distinguished by being also provided with opening sieve to separate gravel into fine and middle fractions, which is placed under shaker in the form of false bottom; second deep-filling strake arranged along shaker symmetrically to the first one; gravel middle fraction dewaterer placed under strakes; and fine-fraction gravel- concentration apparatus installed behind dewaterer. Invention is further distinguished by that, opening sieve of shaker is connected with strakes through middle-fraction gravel-supply means and, through fine-fraction gravel drain means, with dewaterer, which communicates, through water-drain means, with strakes and, through fine-fraction gravel discharge means, with fine-fraction gravel concentration apparatus. EFFECT: increased gold recovery degree due to reduced loss of fine-class gravel. 2 dwg

Description

 The invention relates to the field of mineral processing, in particular small-scale processing plants for the extraction of gold from loose deposits, as well as for the enrichment of large samples during exploration.

 Known small-sized small-scale installation for gold extraction "SMD-PROGRESS", including mounted on the frame loading hopper: drum screen disintegrator and centrifugal concentrator [1]. In the well-known installation, gold-containing sands are loaded into a screen-disintegrator, where they are disintegrated and classified by size ≈8 mm with the supply of fine and medium grains for enrichment in a centrifugal concentrator, and coarse grains in the dump.

 The installation allows for the development of small-scale gold placers located in remote areas. The disadvantage of the installation is the ablation of nuggets with a coarse fraction of sand.

 Known portable flushing installation "Scout" company "Goldfild Endgineering", which includes mounted on a fixed frame loading hopper, vibrating screen, deionizing device in the form of high-pressure spray nozzles mounted along the screen, and a deep filling gate [2]. In the known installation, the gold-containing sands from the loading hopper are fed to a vibrating screen, where they are disintegrated by water pumped from high-pressure nozzles, and are classified by size ≈20 mm with the supply of an oversize (pole) product to the dump, and the under-sieve (minus) product for enrichment in the gateway.

 A well-known installation allows you to evaluate gross samples of placer gold deposits, as well as its small-scale mining with a degree of gold recovery of ≈ 90%.

 The disadvantages of the installation include high losses of small classes of gold, especially when sand is enriched with a small fraction of fine and very fine gold 35 - 55%, due to the transfer of fine gold to the dump by the pulp stream due to the high speed and low density of the pulp stream in the lock.

 The objective of the invention is to increase the degree of extraction of gold by reducing the loss of its small classes by providing the possibility of increasing the density of the pulp, the allocation of sand of the fine-grained fraction from it and the recovery of especially fine gold from them.

 The specified technical result is achieved by the fact that the washing installation, including a vibrating screen mounted on a frame with a device for the disintegration of gold-containing sands and an apparatus for their enrichment in the form of a deep filling sluice, according to the invention is equipped with a spalt sieve for separating the sands into fine and medium grains installed under the screen in in the form of a false bottom, a second deep-filling lock located along the screen, symmetrical to the first, dehydrating sands of fine-grained fraction, placed under the locks, and a fine-grained sand enrichment apparatus, installed behind their dehydrator, and the rattle sieve screen is connected to the locks by means of the medium-sand fraction feed means, and the fine-grained sand pulp drains are connected to their dehydrator, which is connected to the locks by means of water discharge means for the release of fine-grained sand - with an apparatus for their enrichment.

 The advantage of the proposed washing plant in comparison with the known one is that the possibility of separating gold-containing sands by size into medium- and fine-grained fractions with their enrichment in separate apparatuses, as well as the achievement of the optimal speed and density of pulp in concentrating apparatuses, allows reducing fine losses and especially fine gold to increase the degree of its extraction, and by reducing the volume of processed pulp to reduce the metal consumption and installation dimensions.

 In FIG. 1 shows a general view of the installation; in FIG. 2 is a cross-sectional view of the apparatus of FIG. one.

 The washing unit contains a frame 1 mounted on a fixed platform 2, and a vibrating screen 3 mounted on the frame during the technological process with a receiving hopper 4 and a disintegrating device 5 in the form of a system of high-pressure nozzles 6, an apparatus 7 for enriching sand of a medium-grained fraction, a sand pulp dehydrator 8 fine-grained fraction and apparatus 9 enrichment of sand fine-grained fraction.

 Vibrating screen 3 with a disintegrating device 5 is designed to disintegrate the initial sands and classify them by size into three fractions (classes): fine-grained (-3 mm), medium-grained (-20 +3 mm) and coarse-grained (+20 mm).

 The vibrating screen is a funnel-shaped inclined box 10 in cross section with an electric vibrator 11 in the upper part, a perforated sieve 12 with holes minus 20 mm in the middle and a false bottom in the form of a gable bobbin sieve 13 with slit width minus 3 mm in the lower part.

 A vibrating screen through the slit openings 14 in the longitudinal walls of the box 10 and the discharge chutes 15, rigidly fixed under it, is connected to the sand enrichment apparatus 7 of the medium-grained fraction, and through the slotted nozzle 16, the pulp of the fine-grained sand fraction is drained with their dehydrator 8.

 The medium sand fraction enrichment apparatus 7 is designed to capture free gold from sands with a grain size of 3 to 20 mm and consists of two deep filling sluices 17 installed on both sides of the screen 3 symmetrically to one another, each of which is made in the form of an inclined trench 18 with a bottom 19 covered with stencils 20 60 - 70 mm high and catch mats 21.

 The dehydrator 8 of the sands of fine-grained fraction is designed to provide optimal pulp flux density at the deep filling gateways of the apparatus 7 and the power density of the apparatus 8 for the enrichment of sands of fine-grained fraction.

 The dewatering agent 8 is a Lamella type thickener made in the form of a housing 22 in the form of a triangular rectangular pyramid mounted upside down with a package of inclined parallel plates 23 and nozzles 24, 25 for draining the condensed product and excess water, respectively.

 The dehydrator 8 through the pipe 25 is connected to the locks 17 of the deep filling apparatus 7, and through the pipe 24 to the device 9 for the enrichment of sands of fine-grained fraction.

 The apparatus 9 for the enrichment of sands of fine-grained fraction is designed to capture fine and fine gold from sands with a particle size of less than 3 mm and can be performed, for example, in the form of a fine-filling gateway 26 or a centrifugal separator 27.

 The small-filling gateway 26 is an inclined trough 28 with a bottom 29 with transverse rubber mats 30 and stencils 31 high 40 - 50 mm.

 The centrifugal separator 27 is an enrichment bowl 32 mounted rotatably around a vertical axis in a cylindrical casing 33, with a feed funnel 34 and a drain chute 35.

 Flushing installation works as follows. Enriched sands with a mass fraction of free gold with a grain size of 0.5 - 0.25 mm 35 - 45% and finer than 0.25 mm - 50 - 55% are fed into a vibrating screen 3 through a receiving hopper 4 to a sieve 12, where under the influence of water pumped through high-pressure nozzles 6 of the disintegrating device 5, they are disintegrated, and the forming pulp is classified into two fractions. In this case, a fraction larger than 20 mm and boulders are screened and dumped, and a fraction of less than 20 mm is sieved onto a shaltite sieve 13, which is classified into fine-grained (less than 3 mm) and medium-grained (from 3 to 20 mm) fractions.

 The sands of the medium-grained fraction, containing mainly gold larger than 3 mm, from the vibrating screen 3 are fed for enrichment to the deep filling sluices 17 of the apparatus 7, where in the stream the pulps are separated by density into heavy and light particles. Moreover, light particles are transported from the locks 17 to the dump by a stream of pulp, while heavy particles are deposited on the bottom 19 of the groove 18 and are concentrated in rubber cellular mats 21, from where they are periodically rinsed.

 Extraction of gold larger than 3 mm reaches 100%.

 The pulp of the fine-grained fraction of sand from the vibrating screen 3 is discharged into the dehydrator 8, where, when the direction of its flow changes in the packet of inclined-parallel plates 23, it separates from the pulp and, coagulating on the inclined plates, the crystalline phase of the pulp precipitates. The clarified liquid phase of the pulp is continuously displaced from the housing 22 of the dehydrator 8 and through the nozzle 25 is discharged into the locks 17 of the apparatus 7 to pulp the medium-grained fraction of sand.

 The sands of the fine-grained fraction, containing gold from 0.25 to 0.1 mm in size and finer, are discharged from dehydrator 8 for enrichment into apparatus 9, where in the pulp stream they are separated by density into heavy and light particles under the influence of gravitational or centrifugal forces in the lock 26 fine filling or in a centrifugal separator 27, respectively.

 At the same time, in the small-filling gateway 26, light particles merge with the pulp into the dump, while heavy particles are concentrated in rubber mats 30 on the bottom 29 of the channel 28 of the lock. The removal of the concentrate is carried out periodically. Extraction of gold concentrate with a fineness of 0.25 - 0.1 mm is 90 - 95%, finer than 0.1 mm - 75 - 85%.

 In a centrifugal separator 27, light particles are carried out by pulp flow through the board of the beneficiation bowl 32 into the casing 33 and then through the drain trough 35 into the dump, heavy particles are concentrated in the riffles of the lining of the bowl 32, from where they are unloaded as they accumulate. Extraction of fine and especially fine gold reaches 95 - 98%.

 Thus, the proposed installation, due to the possibility of classifying the initial sands into medium- and fine-grained fractions and enriching the sands of the fine-grained fraction in the aquatic environment under the influence of gravitational or centrifugal forces, makes it possible to recover 85-95% of fine and very fine gold into a concentrate, respectively.

Claims (1)

 A flushing unit, including a vibrating screen mounted on a frame with a device for disintegration of gold-containing sands and an apparatus for their enrichment in the form of a deep filling sluice, characterized in that it is equipped with a shalt screen for separating sands into a fine and medium-grained fraction installed under a screen in the form of a false bottom a second deep-filling lock located along the screen symmetrically to the first, a fine-grained sand dehydrator located under the locks, and a fine-sand sands enrichment apparatus of a sludge fraction installed behind their dehydrator, and a shalt sieve screen by means of supplying sand of a medium-grained fraction is connected to locks, and by means of draining pulp of fine-grained sand sands - to their dehydrator, which is connected to locks by means of draining water and draining sands of fine-grained fraction to enrich them.

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